Accel Click is an accessory board in the mikroBUS form factor. It features the ADXL345 3-axis accelerometer module with ultra-low power and high resolution (13-bit) measurement. Module supports several sensing functions such as single/double tap detection, activity/inactivity monitoring, free-fall detection etc. It has a memory management system with a 32-level FIFO buffer to store data with minimized host processor activity. The board is designed to use 3.3V power supply only.

Accel 2 click carries ST's LIS3DSH IC, a low-power factory-calibrated three-axis accelerometer which embeds a FIFO buffer and two programmable state machines. It allows you to implement gesture recognition. User-defined programs can distinguish movement patterns like shake and double shake, face up and face down, turn and double turn, and activate an interrupt upon their execution. You can also switch between I2C and SPI interfaces for communicating with the target board MCU (by soldering the onboard jumpers in the appropriate positions). Accel 2 click is designed to use a 3.3V power supply only.

Accel 3 click is a mikroBUS add-on board with ST's H3LIS331DL low-power high-g 3-axis digital accelerometer. The IC has &plusmn100g/&plusmn200g/&plusmn400g dynamically selectable full scales and outputs 16-bit data at rates from 0.5 Hz to 1 kHz. On the upper end, the chip can survive a 1000g high-shock. H3LIS331DL has extremely low power consumption (down to 1 micro amp in low-power mode). Advanced sleep-to-wakeup functions are also available. Accel 3 click can communicate with the target MCU either through the mikroBUS SPI or UART interface, with additional functionality provided by an interrupt pin (INT). The board is designed to use a 3.3 power supply only.

R460

Qty:

Price ex. VAT.Est. Weight: 15g.Stock: Available in 5-10 working days[i].

Accel 5 click features an ultra-low power triaxial accelerometer sensor, labeled as the BMA400. This Click board™ allows linear motion and gravitational force measurements in ranges of ±2 g, ±4 g, ±8, and ±16 g in three perpendicular axes. Besides the acceleration measurement, Accel 5 click is able to output an interrupt for many different events, including tap, double tap, step counting, activity recognition (walk, run, stand still), activity change (any type of acceleration pattern change), orientation, and more. It features an onboard data processing, offering the acceleration data directly, over the standard I2C or SPI interface. However, a key feature of the BMA400 sensor is its extremely low power consumption.

Accel 7 click is a three-axis acceleration sensing Click board™. It uses the KXTJ3-1057, a 14bit tri-axis digital accelerometer, which can sense the acceleration up to ±16 g. This sensor is built using the proprietary Kionix micromachining technology, which results with a high accuracy and very good noise immunity. Accel 7 click can be used in a wide range of applications that require low power consumption, fast response, precision, and reliability. It can be used for display orientation, HID applications, drop detection applications (for warranty logging), and similar applications that rely on acceleration and motion-sensing.

It comes in the package which also includes the mikroSDK™ software and a library with all the functions. The Click board™ comes as a fully tested and approved prototype, making it a reliable device ready to use on the development board.

Accel 8 click is an advanced 6-axis motion tracking Click board™, which utilizes the MPU6050, a very popular motion sensor IC, equipped with a 3-axis gyroscope and 3-axis accelerometer. It also features Digital Motion Processor™, a very powerful processing engine, which reduces the firmware complexity and the processing load of the host MCU. The output of each axis is digitized by a separate 16-bit ADC and processed by the DMP engine, offering motion data over the I2C Interface. Packed with a set of very powerful options, this Click board™ represents an ideal solution for the development of MotionInterface™ based applications.

Accel 8 click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

Accel 11 click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

The Three-Axis Accelerometer Board includes a small, thin, low-power, 3-axis accelerometer ADXL330 with signal conditioned voltage outputs. It measures acceleration with a minimum full-scale range of ±3 g. It comes with many ready-to-use examples.

Tilt click carries a RPI-1035, 4-directional optical tilt sensor. This type of sensor provides positional feedback for left, right, backward or forward movement (tilt). Compared to mechanical solutions, optical direction detectors are less prone to noise caused by vibrations. Compared to magnetic-based direction detectors, they are not influenced by magnetic disturbances. Tilt click communicates with the target board microcontroller through mikroBUS PWM and INT lines, used here for vout1 and vout2 outputs from the sensor. In addition, two onboard LEDs provide visual feedback from the sensor. The board is designed to use either a 3.3V or 5V power supply.

R205

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Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

Tilt 2 click is a tilt sensor switch, which breaks the circuit when tilted to an angle of 45° or when shaken. It is a single-pole-double-throw type of switch (SPDT), which can be operated with up to 24V. The current through the switch should not exceed 25mA. The Click board™ is equipped with the the RB-441-45, a 45° rolling ball sensor switch, which uses gold-plated terminals and a gold-plated ball, in order to minimize the contact resistance. The sensor switch is very durable, enclosed in a PBT plastic with very good electric insulation properties. It can be used in any application that relies on sensing a tilt of 45°.

Tilt 2 click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

TILT-n-SHAKE click carries Freescale’s MMA8491Q IC. It's a multifunctional 3-axis digital accelerometer that can also be configured as a 45-degree Tilt sensor. To use it as an accelerometer, keep the EN pin pulled to logic level high. The acceleration data will be outputted to the target MCU through mikroBUS I2C pins (SCL, SDA). The output time is about 700 microseconds, with a 14-bit resolution, ±8 full-scale range and 1 mg/LSB sensitivity. As a Tilt sensor, the click board needs only one output pin — INT (interrupt). Three onboard LEDs will also signal the tilt orientation. TILT-n-SHAKE click is designed to use a 3.3V power supply only.

R300

Qty:

Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

Vibra Sense click is a low cost micro shock vibration sensor with a digital output which can be set as an Interrupt (mikroBUS INT pin) An onboard potentiometer lets you set the interrupt threshold. An additional Enable line (EN) is in place of the mikroBUS pin. It's a very simple and effective solution for detecting vibrations. The sensing unit consists of a round housing in which a spring is coiled around a metal pin. When exposed to vibration, the spring contacts the pin and closes the switch. The board is designed to use either a 3.3V and a 5V power supply.

R285

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Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

Shake2Wake click carries an ADXL362 ultralow power, 3-axis MEMS accelerometer from Analog Devices. The distinguishing feature of this IC is that it incorporates several activity detection modes. The interrupt pins from the chip are connected to an onboard ADP195 power switch IC that in turn controls an external device connected through a screw terminal. The detection threshold is configurable (both intensity and duration). The duration of inactivity that leads to switching off is also programmable. Shake2Wake click can also be used as a regular accelerometer, for continuous sensing, in which case it communicates with the target MCU through mikroBUS SPI interface. Uses 3.3V power supply only.

R620

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Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

Gyro Click is an add-on board in the mikroBUS form factor. It features the L3GD20 three-axis digital gyroscope module, which is capable of providing the measured angular rate as well as the ambient temperature. The L3GD20 has a full scale of ±250 / ±500 / ±2000 dps and is capable of measuring rates with a user-selectable bandwidth. Gyro Click communicates with the target board microcontroller via mikroBUS SPI (MOSI, MISO, SCK, CS), I2C (SDA, SCL), INT and RST lines. The board is designed to use a 3.3V power supply only. All these features make this board ideal for gaming and virtual reality input devices, motion control, GPS navigation systems and more.

The Gyro 2 click is a three-axis digital angular rate sensor which can sense the angular movement and velocity in three perpendicular axes. The Click board™ is equipped with the FXAS21002C, a three-axis integrated angular rate gyroscope. This gyroscope IC features a very good sensitivity-to-range ratio, allowing it to achieve the resolution of 0.0625 °/s, while operating in the ±2000 °/s Full-Scale Range (FSR) mode. The full-scale range can be dynamically changed in several discrete steps, providing optimal performance for the application-specific conditions: lower FSR results in enhanced sensitivity.

It comes in the package which also includes the mikroSDK™ software and a library with all the functions. The Click board™ comes as a fully tested and approved prototype, making it a reliable device ready to use on the development board.

Gyro 3 click is a three-axis gyroscope Click board™ that can sense motion over three perpendicular axes. It is equipped with the I3G4250, a three-axis digital gyroscope. This IC incorporates microelectromechanical sensing elements (MEMS), produced using a proprietary CMOS micromachining technology. This technology allows for excellent stability and linearity over temperature. The angular data is available in a 16-bit format, along with 8-bit temperature data. Gyro 3 click can be used for angular speed up to 2000 degrees per second (dps), it features a FIFO buffer, two dedicated interrupt lines, and on-chip data processing for optimized firmware development.

Gyro 3 click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

MPU IMU click carries the MPU-6000 integrated 6-axis motion tracking device, which combines a 3-axis gyroscope, 3-axis accelerometer, and a DMT (Digital Motion Processor) into a single small chip. The gyroscope has a sensitivity up to 131 LSBs and a full-scale range of ±250, ±500, ±1000, and ±2000dps. The accelerometer has a programmable full scale range of ±2g, ±4g, ±8g and ±16g. It communicates with the target board through SPI, I2C, RST and INT lines. The board is designed to use a 3.3V power supply only. An LED diode serves as a power indicator.

6DOF IMU click is a mikroBUS add-on board that carries ST's LSM6D33 IC, which is 6-axis inertial measurement unit comprising a 3-axis gyroscope and a 3-axis accelerometer. The chip is a highly accurate 6 DOF inertial measurement unit with long-term stable operation over a wide range of temperatures. It's high robustness to mechanical shock makes is suitable for designing reliable platform stabilization systems, for example in cameras and drones. The board communicates with the target MCU either through I2C or SPI interfaces (along with an additional INT pin).

R380

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Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

6DOF IMU 2 click is a mikroBUS™ add-on board with Bosch's BMI160 low power inertial measurement unit (IMU). The BMI160 is capable of precise acceleration and angular rate (gyroscopic) measurement.
The IMU consists of a state-of-the-art 3-axis, low-g accelerometer, and a low-power 3-axis gyroscope, designed for 6-axis and 9-axis applications. The BTI160 also includes built-in power management unit (PMU) for advanced power management and power-saving modes, as well as allocated FIFO buffer of 1024 bytes for handling external sensor data.
6DOF IMU 2 click communicates with the target MCU through the I2C or SPI bus (user-selectable), with additional functionality provided by the INT pin (for enhanced autonomous motion detection).
The board is designed to use a 3.3 power supply only.

R380

Qty:

Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

6DOF IMU 4 Click is an advanced 6-axis motion tracking Click board™, which utilizes the ICM-20602, a high-performance integrated motion sensor, equipped with a 3-axis gyroscope, and a 3-axis accelerometer. There is a MEMS on each axis, sampled by a 16-bit A/D converter (ADC). Data streams from each axis are fed to a signal processing engine, offering calibrated readings of each axis over the I2C or SPI interface. A FIFO buffer with 1kb of memory allows MCU firmware optimization. Packed with a set of powerful options, this Click board™ represents an ideal solution for development of MotionTracking™ applications.

6DOF IMU 4 Click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

6DOF IMU 8 click is an advanced 6-axis motion tracking Click board™, which utilizes the ISM330DLC, a high-performance System in Package (SiP), equipped with a 3-axis gyroscope, and a 3-axis accelerometer. A combination of the two most commonly used motion sensors allows for full 6D sensing. Tailored towards the Industry 4.0, the ISM330DLC is equipped with many smart features used to optimize the firmware and the power consumption. These features include a powerful interrupt engine capable of detecting several different events, 4K of FIFO buffer, configurable signal processing, and support for both I2C and SPI communication interfaces.

6DOF IMU 8 click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

LSM6DSL click measures linear and angular velocity with six degrees of freedom. It carries the LSM6DSL high-performance 3-axis digital accelerometer and 3-axis digital gyroscope. The click is designed to run on a 3.3V power supply. LSM6DSL click communicates with the target microcontroller over SPI or I2C interface, with additional functionality provided by the INT pin on the mikroBUS™ line.

Compass Click is an add-on board in the mikroBUS form factor. It features the LSM303DLHC ultra-compact high-performance e-compass 3-axis magnetometer and 3-axis accelerometer module. It includes a specific sensing element and an IC interface capable of measuring both linear acceleration (full-scale of ±2g/±4g/±8g/±16g) and magnetic field (from ±1.3 to ±8.1 gauss full-scale), both in 3 dimensions, and provides a 16-bit data output through an I2C interface. By combining both a compass and an accelerometer in the same chip, magnetic north can be determined regardless of unit orientation. Readings received from the IC can be processed and used to determine earth's magnetic north pole. The board is designed to use a 3.3V power supply only. All these features make this board ideal for compensated compass, position detection, map rotation, pedometer, display orientation and many more applications.

GeoMagnetic click is a digital magnetometric click board which can measure the geomagnetic field in three perpendicular axes. The onboard sensor uses FlipCore - a proprietary technology from Bosch, which results with a carefully tuned performance, tailored for demanding 3-axis mobile applications, such as a tilt-compensated electronic compass, gaming controllers, augmented reality applications and similar applications which require reliable and precise 3-axis magnetometric measurement.

LSM303AGR click measures acceleration and magnetic field characteristics. It carries the LSM303AGR 3D accelerometer and 3D magnetometer.
LSM303AGR click is designed to run on a 3.3V power supply. It communicates with the target microcontroller over I2C interface, with additional functionality provided by the INT pin on the mikroBUS™ line.

Compass 2 click is a mikroBUS add-on board with an AK8963 3-axis electronic compass. The high sensitivity sensor is based on the Hall effect. The built-in ADC converter can be set up at either 14 or 16 bit resolution, for each of the 3 axes. The sensitivity is 0.6µT /LSB typ. at 14-bit, and 0.15µT/LSB at 16-bit. Compass 2 click communicates with the target MCU through either through the I2C or SPI interface, with an added INT pin. Onboard jumpers enable you to switch between two interfaces. The board is designed to use a 3.3 power supply only.

R395

Qty:

Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

9DOF click carries ST's LSM9DS1 inertial measurement module that combines a 3D accelerometer, a 3D gyroscope and a 3D magnetometer into a single device outputting so called nine degrees of freedom data (3-axis acceleration, angular velocity and heading), in 16-bit resolution. 9DOF click communicates with the target MCU through the mikroBUS I2C interface (SCL and SDA) with additional functionality provided by the programmable Interrupt (INT) pin, as well as the Enable (EN) pin. The IC has multiple interrupt lines which can be accessed through jumpers on the click board. I2C addresses are specified in the same manner. The board uses a 3.3 power supply only.

MPU 9DOF click carries the MPU-9150 System in Package, which is the world's first 9-axis Motion Tracking device. MPU-9150 comprises two chips. One is the MPU-6050 that contains a 3-axis accelerometer, a 3-axis gyroscope, and a DMP (digital motion processor); the other is AK8975, a 3-axis digital compass. The MPU-9150 is designed for the low power, low cost, and high performance requirements of consumer electronics equipment and wearable sensors. The ability to track motion in free space also makes MPU 9DOF click a suitable sensor for RC vehicle (e.g. quadcopters) and camera stabilisation systems.

3D Motion click carries Microchip’s MM7150 9-axis sensor fusion motion module. It's a complete self contained solution comprising a 3-axis accelerometer, a gyroscope, a magnetometer, and a SSC7150 motion coprocessor. The motion coprocessor has sensor fusion alghoritms that take raw data from individual sensors and filter, compensate and combine them together. The resulting output provides reliable and accurate positioning and orientation information. The board communicates with the target MCU through the mikroBUS I2C interface; WAKE and RESET pins are also used (in placed of default mikroBUS AN and RST respectively), as well as an interrupt pin (INT).

R915

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Price ex. VAT.Est. Weight: 25g.Stock: Available in 5-10 working days[i].

10DOF click is a mikroBUS add-on board for enhancing hardware prototypes with 10DOF functionality (10 degrees of freedom). The click board carries two modules from Bosch: BNO055, a 9-axis absolute orientation sensor and BMP180, a digital pressure sensor. The BNO055 contains 3 sensors: a 3-axis 16-bit gyroscope, a 14-bit 3-axis accelerometer, and a 3-axis magnetometer, as well as a 32-bit ARM Cortex-M0 MCU with Bosch Sensortec sensor fusion algorithms. The pressure sensor is based on piezo-resistive technology, enabling high accuracy, linearity and long term stability. 10DOF click communicates with the target board MCU through the mikroBUS I2C interface (SCL, SDA), with additional functionality provided by INT and RST pins. Designed to use a 3.3V power supply only.

MOTION click is a motion detector sensitive only to live bodies. It carries PIR500B, a pyroelectric sensor which generates a voltage when exposed to infrared light. The signal is processed by a BIS0001 PIR sensor controller which sends an interrupt to the MCU through the mikroBUS INT (out) line. An onboard potentiometer lets you adjust the detecting range of the sensor (up to 4 meters). MOTION click also has a night only mode—resoldering a zero-ohm jumper activates the onboard photo resistor which acts as a light-sensitive switch. You can also switch the sensor ON and OFF by sending a signal from the MCU through the mikroBUS RST pin. The board uses a 3.3V power supply only.

The Motion Sensor Board includes the AMN11112 sensor that is capable of detecting changes in infrared radiation in the surrounding. Such changes are caused by changing temperature due to movements made by a person or objects. The board can operate with either 3.3V or 5V systems.

Proximity click features a VCNL4010 proximity and ambient light sensor. It combines an infrared emitter and PIN photodiode for proximity measurement with a range of up to 20cm. The VCNL4010 has a 16bit resolution which ensures excellent cross talk immunity. It can also be used as an ambient light sensor. Proximity click communicates with the target board microcontroller via mikroBUS I2C (SDA, SCL) and INT lines. The board is designed to use 3.3V power supply and 3.3V or 5V I/O voltage levels.

Proximity 2 click features the MAX44000, an IC that integrates an ambient light as well as a proximity sensor. The chip consists of an array of photodiodes that convert light into current, which the internal circuitry then converts into a digital value. The light sensor has a dynamic range of 0.03 to 65.535 lux. The IR proximity detector is matched with an integrated IR LED driver (for the onboard high power infrared LED). Proximity 2 click communicates with the target board microcontroller through mikroBUS I2C (SCL, SDA), and INT lines. It is designed to use a 3.3V power supply only.

R300

Qty:

Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

Proximity 3 click is an intelligent proximity and light sensing device, which features the VCNL4200 sensor from Vishay - high sensitivity long distance proximity sensor (PS), ambient light sensor (ALS) and 940 nm IRED, all in one small package.
With its smart sensing and light conditioning properties, the Proximity 3 click can be used in a wide range of applications: adjusting the brightness of the TFT screen depending on ambient light, turning off the TFT background light if it is covered, very accurate lux meters, reliable security sensors and so on.

Proximity 5 click is a very accurate and reliable proximity sensing (PS) and ambient light sensing (ALS) device, equipped with the state-of-the-art PS and ALS sensor. The signal processing and conditioning section, three IR LED drivers, and the low noise analog front end with the PS and ALS photo-sensitive elements, are all integrated into the sensor IC, ensuring very accurate and reliable readings, while reducing the workload of the host MCU. The proprietary Filtron™ technology provides near-human eye light spectrum sensitivity and top-class background light cancellation scheme for the ALS section, additionally reducing the workload of the MCU. Finally, the programmable interrupt engine reduces the MCU workload, even more, saving the host MCU of constant polling of the sensor for data.

Proximity 6 click is a versatile proximity detection device on a Click board™. It can detect a foreign object distanced up to 20cm. The Click board™ features a detection sensor IC that can trigger a threshold based interrupts, which makes this Click board™ capable of detecting even simple gesture movements. The advanced onboard IC sensor features LED driver section, a light sensor with the integrated analog front end (AFE), 14 bit analog to digital converter (ADC), and digital engine for processing and aggregation of the measurement result, which simplifies the firmware development. The ambient light cancellation includes both digital and optical filtering, resulting in increased detection reliability.

Proximity 7 click is an advanced proximity and ambient light sensing Click board™. It features the ADPS9930, a digital sensor IC equipped with two photodiodes (PD) and an IR LED, driven by a proprietary LED driver circuit. It allows an accurate proximity detection for a maximum distance of 100mm. The proprietary LED current driving technique eliminates the need for calibration, simplifying the design. A huge dynamic range allows ambient light sensing closely matched to the response of the human eye, in a variety of light conditions. An extensive interrupt engine allows for a firmware optimization.

Proximity 7 click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

Proximity 8 click is a close-range proximity sensing Click board™, equipped with the VCNL36687S, a very accurate and power-efficient proximity sensor (PS) with VCSEL. A Vertical-Cavity Surface-Emitting Laser (VCSEL) is used in conjunction with the advanced analog and digital frontend circuits, which allow minimal power consumption and simplified operation. The sensor can be triggered by a single command over the I2C interface. An advanced interrupt engine allows reliable MCU interrupt triggering, featuring the programmable persistence which helps to avoid false reporting.

Proximity 8 click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

Proximity 9 click is a very accurate and reliable proximity sensing (PS) and ambient light sensing (ALS) device, equipped with the VCNL4040, an integrated PS and ALS sensor which features the Filtron™ technology. The 940nm IRED emitter, along with the low noise analog front end, and the PS/ALS photo-sensitive elements, is integrated on the VCNL4040 IC, ensuring very accurate and reliable measurements. The proprietary Filtron™ technology provides response near to the human eye spectral response, providing the background light cancellation. The programmable interrupt engine allows for the development of an optimized firmware, reducing the MCU workload and power consumption.

Proximity 9 click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.

IR distance click carries Sharp's GP2Y0A60SZ0F distance measuring sensor. The sensor module comprises an integrated PSD (position sensitive detector), an infrared LED and a signal processing circuit. The measuring range is between 10 and 150 cm. The sensor is not easily influenced by the reflectivity of the object, but it's important to keep the lens clean. The click board outputs an analog voltage corresponding to the distance of the object (through the mikroBUS AN pin). An Enable (EN) pin is also utilized. The board is designed to use either a 3.3V or a 5V power supply.

IR reflect click carries a GP2S700HCP reflective photointerrupter and an onboard potentiometer. On this type of photointerrupter the infrared emitter and receiver are facing the same direction; the infrared beam from the emitter gets bounced back to the receiver when an object is placed within the detecting range of the sensor. IR reflect click communicates with the target board microcontroller through mikroBUS AN and INT pins (an onboard potentiometer sets the Interrupt threshold). It’s designed to use either a 3.3V or 5V power supply.

R190

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Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

IR eclipse click carries an EE-SX198 photo interrupter sensor. This sensor consists of an infrared transmitter and receiver facing each other and spaced apart by a 3mm slit. When the beam from the transmitter is eclipsed by placing an object in the slit (like a piece of paper), the sensor is activated (indicated by the onboard INT LED). This type of sensor is typically used in printers, copiers, vending machines and so forth. IR eclipse click communicates with the target board through the mikroBUS INT line. It’s designed to work with either a 3.3V or 5V power supply.

R240

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Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

IR Sense click carries the AK9750 quantum-type IR sensor. The click is designed to run on a 3.3V power supply. It communicates with the target microcontroller over I2C interface, with additional functionality provided by the INT pin on the mikroBUS™ line.

IR Sense 2 click is the infrared sensor Click board™, designed to be used for the short range IR sensing applications. Unlike other pyroelectric sensors, it is able to sense environmental heat changes up to 1m, even through the glass. IR Sense 2 click is perfectly suited for human presence detection, so it can be used in many human presence detection applications. A programmable interrupt engine simplifies the software development and saves MCU cycles, that would be otherwise wasted on polling. The ability to sense IR through the glass allows an unconstrained design of the final product.

LightRanger click is a proximity sensor carrying ST's VL6180X IC. This chip is based on ST's patented FlightSense technology: the sensor - consisting of an IR emitter, ambient light sensor, and range sensor - calculates distance by measuring the time it takes for a photon to travel to the nearest object and back (Time of Flight). In contrast to conventional IR proximity sensors which derive distance by measuring the amount of light reflected, VL618OX works with all objects, regardless of their color or reflectivity. LightRanger click communicates with the target board MCU through mikroBUS I2C pins (SCL, SDA), with additional interrupt (INT) and enable (EN, in place of default mikroBUS CS pin).

R380

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Price ex. VAT.Est. Weight: 20g.Stock: Available in 5-10 working days[i].

LightRanger 2 click carries VL53L0X IC from STMicroelectronics, the word's smallest Time-of-Flight ranging and gesture detector sensor. The click is designed to run on either 3.3V or 5V power supply. LightRanger 2 click communicates with the target microcontroller over I2C interface and the following pins on the mikroBUS™ line: RST, INT.

Light Ranger 3 click is an accurate distance measurement Click board™ based on a ToF (Time of Flight) measurement principle. The Simblee™ enabled RFD77402 rangefinder module from RF Digital is a complete measurement stack on the chip. It is surprisingly easy to work with, as this highly integrated range finder module exposes the only I2C interface and INT pin to the host controller. It features the VCSEL, a Vertical Cavity Surface Emitting Laser, used to emit a narrow band of a harmless modulated light beam in the IR range (850 nm), and a receive sensor, which can detect the reflected light. It can measure distances up to 2000mm, with up to 10% accuracy. The device is rated Class 1 LASER product, operating in the IR (invisible) spectrum range.

Light Ranger 4 click is an accurate distance measurement Click board™ based on a ToF (Time of Flight) measurement principle. The FlightSense™ enabled VL53L1X rangefinder module from STMicroelectronics is a complete measurement stack on the chip. It is surprisingly easy to work with, as this highly integrated range finder module exposes only I2C interface, XSH and INT pins to the host controller. It features the invisible Class1 laser emitter, used to emit a narrow band of a harmless modulated light beam in the IR range (940 nm), physical infrared filters and optics to achieve the best ranging performance in various ambient lighting conditions with a range of cover window options. It can measure distances up to 4000mm, with up to 50 Hz ranging frequency.

Stretch click is a mikroBUS add-on board with circuitry for measuring stretch forces with conductive rubber cords. The click has screw terminals for connecting 2mm-diameter conductive rubber cord. The resistance of the chord increases when stretched, impacting the voltage available on the AN pin. Stretch click is designed to use either a 3.3V or 5V power supply.
In a "relaxed" state, the resistance is about 130 ohms per centimeter. As you pull on it, the resistance increases (the particles get further apart). As you stretch it out, the resistance increases. So lets say you have a 15cm piece - thats about 2.1 Kohms.
Stretch it to 25cm long and now it is 26/15*2.1K = 3.5 Kohms. You can stretch the rubber about 50-70% longer than the resting length, so a 15cm piece shouldn't be stretched more than 25cm. Once the force is released, the rubber will shrink back, although its not very "fast" and it takes a minute or two to revert to its original length. It's not a true linear sensor, and the resistance may vary from batch to batch, so we consider it a way to measure stretching motion but isn't really precise.
One meter of conductive rubber cord and two alligator clips are included in the package.

R555

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Price ex. VAT.Est. Weight: 30g.Stock: Available in 5-10 working days[i].

Slider click features a mechanical slide action potentiometer - a slider, which gives a nice feeling when actuating, along with 16 SMD LEDs, that can be used for any kind of visual feedback. The onboard high-resolution 22-bit ADC can detect even the smallest move, faithfully capturing the smoothness of the slider movement, while digitizing its position. The 16 onboard SMD LEDs can give a nice visual feedback of the slider position, but those LEDs can also be used for other purposes since they are not hardwired to the slider.

Slider click can be used to control various digital applications with an accurate and comfortable slider potentiometer, while the LEDs can be used to display the desired information in a form of a bar or a position. For example, Slider click can be used to control a quad digital potentiometer, such as the one that can be found on DIGIPOT 5 click, while displaying the position of the selected digital wiper on the LEDs.

The Slider 2 click is a very accurate potentiometer Click Board, featuring a high-quality mechanical slide-action potentiometer (slider), which in conjunction with the accurate voltage reference IC, provides very precise analog control voltage (CV) at its output. Featuring an accurate voltage reference IC, the output of the Click board™ can be directly sampled by the A/D peripheral of the microcontroller (MCU). Since there are many different MCU architectures with different reference voltage requirements, Slider 2 click offers a possibility to select the voltage reference between 4.096V and 2.048V, two most commonly used values for different MCU peripherals.

It comes in the package which also includes the mikroSDK™ software and a library with all the functions. The Click board™ comes as a fully tested and approved prototype, making it a reliable device ready to use on the development board.

Opto Encoder click is a linear incremental optical sensor/encoder click, which can be used for the movement or rotation encoding. Encoders of this type are widely used for many applications which involve precise detection of the position, speed, or rotational angle of an object. Rotary encoders are often used for various types of controllers on many different devices. Whether it be a rotary encoded knob controller or a rotation encoder on a motor shaft, the principle is the same - it includes an optical sensor, just like the one found on Opto Encoder click.

Earthquake click carries D7S, the world's smallest high-precision seismic sensor from Omron. The click is designed to run on either 3.3V or 5V power supply. It communicates with the target MCU over I2C interface, with additional functionality provided by the following pins on the mikroBUS™ line: PWM, INT, CS.

Pedometer 3 click is an acceleration sensing and step counting Click board™ equipped with the KX126-1063, an advanced tri-axis acceleration sensor IC, which features several acceleration detection algorithms, including a pedometer. The micro-electromechanical sensor (MEMS) element itself is based on the principle of measuring the differential capacitance, which further decreases errors due to manufacturing imperfections and temperature. The MEMS element is coupled with a very sophisticated application-specific IC (ASIC), which offers many advanced features, such as the 2048-byte FIFO buffer, pedometer algorithms, tap, and double tap sensing algorithms, free fall algorithms, tilt single/double pole IIR filtering, and more.

It comes in the package which also includes the mikroSDK™ software and a library with all the functions. The Click board™ comes as a fully tested and approved prototype, making it a reliable device ready to use on the development board.

The Ultrasonic 2 click is an ultrasonic range detection Click board™, capable of detecting both near-field and far-field objects. It is equipped with the PGA460, a highly-integrated system-on-chip (SoC), based on SONAR principle. This SoC consists of a low-noise analog front end (AFE) with a programmable time-varying gain stage, a digital signal processor (DSP), and an integrated transducer driver. The PGA460 offers a very accurate and reliable range detection, regardless of the position of an object: the incoming echo signal is conditioned and dynamically amplified over time before it is digitized, so that the optimal signal-to-noise ratio can be achieved.

It comes in the package which also includes the mikroSDK™ software and a library with all the functions. The Click board™ comes as a fully tested and approved prototype, making it a reliable device ready to use on the development board.

Presence click is an infrared sensing Click board™ which can be used for presence sensing, motion detection, and a remote overtemperature protection. Presence click is equipped with the TPiS 1S 1385, a thermophile sensor from CaliPile™ series. The TPiS 1S 1385 has an integrated signal processing circuitry, making it perfectly suited for portable and battery-operated applications. A wide field-of-view (FOV) and high resolution allow for both high sensitivity and operation without lenses, which makes the TPiS 1S 1385 an ideal solution for low-profile and space constrained applications.

Presence click is supported by a mikroSDK compliant library, which includes functions that simplify software development. This Click board™ comes as a fully tested product, ready to be used on a system equipped with the mikroBUS™ socket.